US7957232B2ActiveUtilityPatentIndex 40
Gap controller and optical information processor
Est. expiryNov 21, 2027(~1.4 yrs left)· nominal 20-yr term from priority
G11B 7/1374G11B 7/0908G11B 7/1387G11B 2007/13727
40
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6
Claims
Abstract
A gap controller according to the present invention can set a reference level reasonably for a gap control that needs to be done to keep the gap between a solid immersion lens (SIL) and an optical disc constant. With the gap varied at a substantially regular step, gap detection signal levels are logged to find an extreme value of its second-order difference. And the gap control reference level is determined by the gap detection signal level that results in that extreme value.
Claims
exact text as granted — not AI-modified1. A gap controller for use in an optical information processor with an optical system that includes a solid immersion lens and that produces near-field light to be incident on an optical information storage medium, the controller comprising:
a moving section for moving at least one of the solid immersion lens and the optical information storage medium so as to vary the gap between the solid immersion lens and the optical information storage medium;
a gap detecting section for outputting a gap detection signal representing the magnitude of the gap between the solid immersion lens and the optical information storage medium;
a gap control system for controlling the position of the solid immersion lens such that the level of the gap detection signal is maintained at a reference level Vref; and
second-order difference calculating means for calculating the second-order difference of the gap detection signal with respect to the gap by getting the gap varied by the moving section and by getting the levels of the gap detection signal that change with the varying gap,
wherein the gap control system determines the reference level Vref based on the second-order difference.
2. The gap controller of claim 1 , wherein the gap control system determines the reference level Vref based on the level of the gap detection signal when the second-order difference has an extreme value.
3. The gap controller of claim 2 , wherein the reference level Vref is determined by Vref=V−C×(Vf−V), where V is a level of the gap detection signal when the second-order difference has the extreme value, Vf is a level of the gap detection signal when the gap corresponds to a sufficiently large value, and C is a constant of proportionality.
4. An optical information processor comprising:
an optical system that includes a solid immersion lens and that produces near-field light to be incident on an optical information storage medium;
a moving section for moving at least one of the solid immersion lens and the optical information storage medium so as to vary the gap between the solid immersion lens and the optical information storage medium;
a gap detecting section for outputting a gap detection signal representing the magnitude of the gap between the solid immersion lens and the optical information storage medium;
a gap control system for controlling the position of the solid immersion lens such that the level of the gap detection signal is maintained at a reference level Vref; and
second-order difference calculating means for calculating the second-order difference of the gap detection signal with respect to the gap by getting the gap varied by the moving section and by getting the levels of the gap detection signal that change with the varying gap,
wherein the gap control system determines the reference level Vref based on the second-order difference.
5. A method for driving an optical information processor with an optical system that includes a solid immersion lens and that produces near-field light to be incident on an optical information storage medium, the method comprising the steps of:
varying the gap between the solid immersion lens and the optical information storage medium, thereby generating a gap detection signal that changes its levels with the varying gap;
calculating the second-order difference of the gap detection signal with respect to the gap;
determining a reference level Vref based on the second-order difference; and
controlling the position of the solid immersion lens such that the level of the gap detection signal is maintained at the reference level Vref.
6. The method of claim 5 , wherein the step of determining the reference level Vref includes determining the reference level Vref based on the level of the gap detection signal when the second-order difference has an extreme value.Cited by (0)
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